CN110552518B

CN110552518B - Structure is built to antidetonation room

Info

Publication number: CN110552518B
Application number: CN201910768570.8A
Authority: CN
Inventors: 崔成山
Original assignee: Hubei Zhenghao Construction Group Co ltd
Current assignee: Shanghai Qinxuan Information Technology Co ltd
Priority date: 2019-08-20
Filing date: 2019-08-20
Publication date: 2021-07-30
Anticipated expiration: 2039-08-20
Also published as: CN110552518A

Abstract

The invention relates to an earthquake-resistant building structure, which belongs to the technical field of earthquake-resistant reinforcement of buildings, and the technical scheme is characterized in that the earthquake-resistant building structure comprises a wall body, wherein the wall body comprises a reinforcement cage and concrete for pouring the reinforcement cage, a communicating pipe is fixedly connected inside the reinforcement cage, reinforcing plates are arranged on two sides of the wall body in an abutting mode, fixing parts are fixedly connected to the reinforcing plates, the fixing parts penetrate through the communicating pipe from two sides of the wall body to drive the reinforcing plates to fix the wall body and then are fixedly connected with each other, and the earthquake-resistant effect of the wall body is achieved.

Description

Structure is built to antidetonation room

Technical Field

The invention relates to the technical field of building earthquake resistance and reinforcement, in particular to an earthquake-resistant building structure.

Background

In a building structure, a wall body is an indispensable structure, so that the firmness degree of the wall body is good and bad, and the integral stability degree of the building is directly related. However, the existing wall body has different defects when resisting external stress, particularly earthquake, so that the wall body is loose in structure and easy to collapse. In response to such defects, corresponding reinforcing devices are often added to the interior or exterior of the wall body after the wall body is manufactured.

The existing Chinese patent with reference to publication number CN109629707A discloses a wall structure for an earthquake-resistant energy-saving house, which comprises a main wall, a heat-preservation and heat-insulation coating arranged on the inner side of the main wall, and a heat-preservation layer, a waterproof layer and a greening layer which are sequentially arranged on the outer side of the main wall from inside to outside; the main wall body is built by anti-seismic environment-friendly bricks, the anti-seismic environment-friendly bricks are of cuboid structures, a plurality of regular hexagonal through holes are formed in the top surface and the side surfaces of the anti-seismic environment-friendly bricks, and the main wall body further comprises reinforcing steel bars arranged in the through holes and concrete poured in the through holes; the heat-insulating layer is made of light heat-insulating material, and the interior of the heat-insulating layer is of a honeycomb structure; the greening layer is built by hollow building blocks, and the interior of the greening layer is filled with a plant growth matrix and light porous concrete.

The above prior art solutions have the following drawbacks: this wall structure in energy-conserving house of antidetonation relies on antidetonation environmental protection brick to realize on the antidetonation function, and antidetonation environmental protection brick forms through building by laying bricks or stones, and antidetonation environmental protection brick and wall body butt setting, and is relatively poor to the antidetonation effect of wall body.

Disclosure of Invention

The invention aims to provide an earthquake-resistant building structure, which can achieve an earthquake-resistant effect by reinforcing a concrete-poured wall.

The technical purpose of the invention is realized by the following technical scheme:

an earthquake-resistant building structure comprises a wall body, wherein the wall body comprises a steel reinforcement cage and concrete for pouring the steel reinforcement cage, the interior of the steel reinforcement cage is fixedly connected with a communicating pipe, two sides of the wall body are butted with reinforcing plates, the reinforcing plates are fixedly connected with fixing pieces, and the fixing pieces penetrate through the communicating pipe from two sides of the wall body and drive the reinforcing plates to fix the wall body and then are fixedly connected with each other; the two sides of the reinforcing plate are arranged in a staggered mode, the fixing piece comprises connecting pipes and connecting rods, the connecting pipes and the connecting rods are perpendicular to the reinforcing plate and are communicated with the reinforcing plate, and the connecting rods which are respectively arranged on different reinforcing plates are inserted into the connecting pipes to form clamping connection; the connecting pipe is internally and coaxially provided with an abutting pipe matched with the connecting pipe, a plurality of springs are arranged between the abutting pipe and the connecting pipe, the springs are uniformly arranged between the abutting pipe and the connecting pipe at intervals, and two ends of each spring are respectively and fixedly connected with the abutting pipe and the connecting pipe; the outer wall and the inner wall of the connecting pipe are respectively and fixedly provided with a clamping block, the abutting pipe is provided with a first groove from inside to outside, the first grooves are arranged between adjacent springs, the connecting rod is internally provided with a second groove from the circumferential surface, and the first grooves and the second grooves are clamped with the clamping blocks on the connecting pipe; the reinforcing plates are arranged at the same side at intervals up and down, and an elastic part is arranged between every two adjacent reinforcing plates; the both ends rigid coupling of elastic component has the connecting block, and the spread groove with connecting block looks adaptation is seted up to the top of gusset plate, bottom, and the joint is arranged in to the connecting block and forms the joint in the spread groove.

According to the technical scheme, when the anti-seismic wall is poured, the communicating pipes are welded inside the reinforcement cage, then the reinforcement cage is subjected to concrete pouring, when the anti-seismic wall is built, the reinforcing plates are placed on two sides of the wall, the reinforcing plates are abutted to the wall, and the fixing pieces on the reinforcing plates penetrate through the communicating pipes, so that the fixing pieces tightly fix the reinforcing plates on the two sides of the wall together, and the reinforcing plates have a reinforcing effect on the wall; when the reinforcing plate is used for reinforcing a wall body, the two reinforcing plates are respectively placed on two sides of the wall body, the reinforcing plates are abutted to the wall body, the connecting rods and the connecting pipes on the reinforcing plates on the two sides of the wall body are inserted into the same communicating pipe, the connecting rods are inserted into the connecting pipes to form clamping connection, the reinforcing plates are fixed on the wall body, the effect of the reinforcing plates on fixing the wall body is achieved, meanwhile, after the connecting rods penetrate through the connecting pipes, the parts of the connecting rods, which exceed the connecting pipes and the reinforcing plates, are fixed through nuts, the connection stability between the connecting rods and the connecting pipes is enhanced, and the fixing effect of the reinforcing plates on the wall body is further improved; the connection structure comprises a connecting pipe, a butting pipe, a connecting rod and a nut, wherein the butting pipe is coaxially arranged inside the connecting pipe, a plurality of springs are uniformly arranged between the connecting pipe and the butting pipe at intervals, when a fixing piece is used, the connecting pipe is inserted into the butting pipe, the circumferential surface of the connecting pipe is connected with the inner wall of the butting pipe in a butting mode, the connecting rod is inserted into the connecting pipe, then the connecting rod is fixed through the nut, the connection between the fixing piece and the butting pipe is strengthened, when the springs arranged between the connecting pipe and the connecting pipe generate an earthquake, the impact force of earthquake waves can be relieved through deformation, the wall body can be reinforced, meanwhile, the wall body can have a buffering effect when encountering the earthquake, and the protection effect on the wall body is further improved; when the reinforcing plate is fixed on two sides of the wall body by using the fixing piece, the fixture block on the outer wall of the connecting pipe is aligned with the first groove on the abutting pipe, then the connecting pipe is inserted into the abutting pipe, and the fixture block on the outer wall of the connecting pipe is clamped with the first groove; aligning a second groove on the connecting rod with a clamping block on the inner wall of the connecting pipe, inserting the connecting rod into the connecting pipe, so that the clamping block on the inner wall of the connecting pipe is clamped with a second clamping groove on the connecting rod, and further, the abutting pipe, the connecting pipe and the connecting rod are tightly connected together, so that the connection stability among the abutting pipe, the connecting pipe and the connecting rod is improved, the connection of the fixing piece to the reinforcing plate is enhanced, and the reinforcing effect of the reinforcing plate on the wall body is further improved; the reinforcing plates are arranged at intervals, when an earthquake occurs, the transmission of earthquake waves can be cut off by the reinforcing plates arranged at intervals, the effect of blocking the transmission path of the earthquake waves is achieved, the adjacent reinforcing plates are connected through the elastic parts, the deformation of the elastic parts can also play a role of buffering the earthquake waves, the impact of the earthquake waves is relieved, the protection effect on the wall body and the reinforcing plates is achieved, in addition, the elastic parts are arranged below the reinforcing plates, the elastic parts play a role of supporting the reinforcing plates, and the stability of the reinforcing plates in the using process is improved; set up the connecting block at the both ends of elastic component, when setting up the gusset plate, place the elastic component that the connecting block is connected in the spread groove that adjacent gusset plate corresponds, increase the area of being connected between elastic component and the gusset plate, improve the stability of being connected between elastic component and the gusset plate.

The invention is further configured to: one side of the reinforcing plate, which is far away from the wall body, is detachably connected with a protective layer.

Through above-mentioned technical scheme, set up the protective layer in one side that the gusset plate deviates from the wall body, strengthen the protection to the structure on the gusset plate, prevent that connecting pipe, connecting rod and elastic component from being corroded by the rainwater and sunshine insolate, strengthen protecting connecting pipe, connecting rod and elastic component, improve the life of gusset plate, the life of extension gusset plate ensures the normal use of gusset plate in the earthquake.

The invention is further configured to: the top of the wall body is provided with a cover plate, and the cover plate is connected with the reinforcing plate and the protective layer through bolts.

Through the technical scheme, be provided with the apron on the wall body, and pass through bolted connection between apron and gusset plate and the protective layer, the apron lid is established at the wall body, the top of gusset plate and protective layer, to the wall body, the gap between gusset plate and the protective layer covers, prevent that the rainwater from flowing into inside from the wall body, the gap at gusset plate and protective layer top, and then cause the damage to wall body, gusset plate and protective layer, improve the life of wall body, also ensure the normal use of gusset plate in seismic process, reach the guard action to the wall body.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the reinforcing plates are arranged on the two sides of the wall body, and the reinforcing plates on the two sides penetrate through the wall body and are connected with the wall body, so that the concrete poured wall body is reinforced by the reinforcing plates, and a good anti-seismic effect is achieved;

2. the connecting rod penetrates through the connecting pipe to form clamping connection to fix the reinforcing plate, and the connecting rod is locked by the nut, so that the connection stability between the connecting rod and the connecting pipe is enhanced, and the fixing effect of the reinforcing plate on the wall body is further improved;

3. through set up the elastic component between adjacent gusset plate, the deformation of elastic component can play the effect of buffering to the earthquake wave, slows down the impact of earthquake wave, plays the effect to wall body and gusset plate protection.

Drawings

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a schematic structural view of the projecting reinforcement cage and the communication pipe according to the present embodiment;

FIG. 3 is a schematic structural diagram of the present embodiment after the protective layer and the cover plate are hidden;

FIG. 4 is a schematic structural diagram of the reinforcement cage, the communication tube, the abutment tube, and the spring according to this embodiment;

FIG. 5 is a schematic structural view of the reinforcing plates according to the present embodiment;

FIG. 6 is an enlarged schematic view at A in FIG. 5;

fig. 7 is an exploded view of the reinforcing plates on the same side of the wall in this embodiment.

Reference numerals: 1. a wall body; 11. a reinforcement cage; 12. a communicating pipe; 121. butting the tubes; 1211. a first groove; 122. a spring; 2. a reinforcing plate; 21. an elastic member; 22. connecting blocks; 23. connecting grooves; 3. a fixing member; 31. a connecting pipe; 311. a clamping block; 32. a connecting rod; 321. a second groove; 4. a protective layer; 5. and (7) a cover plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

With reference to fig. 1 and 5, an earthquake-resistant building structure comprises a wall body 1, wherein the wall body 1 is formed by pouring concrete through a reinforcement cage 11, communicating pipes 12 are arranged inside the reinforcement cage 11, reinforcing plates 2 with fixing pieces 3 are arranged on two sides of the wall body 1, and the fixing pieces 3 on the reinforcing plates 2 on two sides of the wall body 1 are mutually connected and fixed through the communicating pipes 12, so that the reinforcing plates 2 reinforce the wall body 1 from two sides of the wall body 1.

With reference to fig. 3 and 4, the communication pipe 12 is perpendicular to the reinforcement cage 11, and both ends of the communication pipe 12 are communicated with the reinforcement cage 11, the abutting pipe 121 is coaxially disposed inside the communication pipe 12, the spring 122 is disposed between the abutting pipe 121 and the communication pipe 12, both ends of the spring 122 are fixedly connected to the abutting pipe 121 and the communication pipe 12, and the spring 122 between the abutting pipe 121 and the communication pipe 12 is provided with a plurality of springs 122, the springs 122 are uniformly spaced, when an earthquake occurs, the impact of the earthquake waves on the wall body 1 and the reinforcing plate 2 is reduced through the deformation of the spring 122, and the protection effect on the wall body 1 and the reinforcing plate 2 is improved.

With reference to fig. 4 and 5, the fixing member 3 includes a connecting pipe 31 and a connecting rod 32, the outer wall of the connecting pipe 31 and the inner wall are both fixedly provided with a fixture block 311, the fixture block 311 is disposed along the outer wall of the connecting pipe 31 and the inner wall is disposed at uniform intervals, the inner wall of the abutting pipe 121 is provided with a plurality of first grooves 1211 extending in a direction away from the axis of the abutting pipe 121, the plurality of first grooves 1211 is disposed parallel to the axis of the abutting pipe 121, the connecting rod 32 is inwardly provided with second grooves 321 from the circumferential surface, when the fixing member 3 is inserted into the abutting pipe 121, the first grooves 1211 and the second grooves 321 are clamped with the fixture block 311 on the communicating pipe 12, the abutting pipe 121, the connecting pipe 31 and the connecting rod 32 are tightly connected together, the connection stability between the abutting pipe 121, the connecting pipe 31 and the connecting rod 32 is improved, and the reinforcing effect of the reinforcing plate 2 on the wall 1 is further improved.

With reference to fig. 4 and 5, when the fixing member 3 is used to fix the reinforcing plate 2, the connecting tube 31 on the reinforcing plate 2 on one side of the wall 1 is placed opposite to the abutting tube 121, and the latch 311 on the outer wall of the connecting tube 31 is aligned with the first groove 1211 on the abutting tube 121, and then the connecting tube 31 is inserted into the abutting tube 121, so that the latch 311 on the outer wall of the connecting tube 31 is in clamping connection with the first groove 1211; and then, the connecting rod 32 on the reinforcing plate 2 on the other side of the wall body 1 is placed just opposite to the abutting pipe 121, the second groove 321 on the connecting rod 32 is aligned with the clamping block 311 on the inner wall of the connecting pipe 31, the connecting rod 32 is inserted into the connecting pipe 31, the clamping block 311 on the inner wall of the connecting pipe 31 is clamped with the second clamping groove on the connecting rod 32, the connecting rod 32 penetrates through the connecting pipe 31 and the reinforcing plate 2 and is placed on the outer side of the reinforcing plate 2, then the part, penetrating out of the reinforcing plate 2, of the connecting rod 32 is fixed by using a nut, the connection between the connecting rod 32 and the connecting pipe 31 is further strengthened, and the reinforcing effect of the reinforcing plate 2 on the wall body 1 is improved.

With reference to fig. 5 and 7, a plurality of reinforcing plates 2 are disposed on the wall 1, and the reinforcing plates 2 disposed at two sides of the wall 1 are staggered, so that the connecting rods 32 on the reinforcing plates 2 at one side of the wall 1 can be connected and fixed with the connecting pipes 31 on the reinforcing plates 2 at the other side of the wall 1, thereby reinforcing the wall 1; the gusset plate 2 that is located wall body 1 with one side sets up at interval from top to bottom, and is provided with elastic component 21 between the adjacent gusset plate 2, and the both ends rigid coupling of elastic component 21 has connecting block 22, and the spread groove 23 with connecting block 22 looks adaptation is seted up to gusset plate 2's top, bottom, and connecting block 22 arranges in spread groove 23 and forms the joint. When installing elastic component 21 and connecting block 22 in the connecting groove 23 of gusset plate 2, insert the connecting block 22 that has elastic component 21 and locate in connecting groove 23 can, the elastic component 21 of inserting between adjacent gusset plate 2 can play the effect of buffering to the seismic wave, and connecting block 22 enlarges the area of being connected between elastic component 21 and gusset plate 2, improve the stability of being connected between elastic component 21 and gusset plate 2, in addition, arrange elastic component 21 and connecting block 22 of gusset plate 2 below in, play the effect of support to gusset plate 2, improve the stability of gusset plate 2 in the use.

Combine fig. 2 and fig. 4, reinforcing plate 2 deviates from one side of wall body 1 and is provided with protective layer 4, and protective layer 4 passes through bolted connection with reinforcing plate 2, strengthens the protection to the structure on reinforcing plate 2, prevents that connecting pipe 31, connecting rod 32 and elastic component 21 from being corroded by the rainwater and sunshine insolate, prolongs reinforcing plate 2's life, ensures reinforcing plate 2 normal use in the earthquake. The top of wall body 1 is provided with apron 5, apron 5 and gusset plate 2, pass through bolted connection between the protective layer 4, apron 5 lid is established at wall body 1, the top of gusset plate 2 and protective layer 4, to wall body 1, the gap between gusset plate 2 and the protective layer 4 covers, prevent that the rainwater from flowing into inside from wall body 1, the gap at gusset plate 2 and protective layer 4 top, prevent that the rainwater from to wall body 1, gusset plate 2 and protective layer 4 cause the damage, improve the life of wall body 1, also ensure the normal use of gusset plate 2 in seismic process.

The implementation principle of the embodiment is as follows: when the wall body 1 is poured, the communicating pipe 12 and the abutting pipe 121 which are connected by the spring 122 are welded inside the reinforcement cage 11, and then the wall body 1 is poured with concrete; when the earthquake-resistant wall body 1 is built, the wall body 1 is placed at a designated position, then the reinforcing plates 2 are placed at two sides of the wall body 1, the connecting pipe 31 on the reinforcing plate 2 at one side of the wall body 1 penetrates through the abutting pipe 121, the clamping block 311 on the outer wall of the connecting pipe 31 is clamped with the first groove 1211 on the abutting pipe 121, the connecting rod 32 on the reinforcing plate 2 at the other side of the wall body 1 penetrates through the connecting pipe 31, the clamping block 311 on the inner wall of the connecting pipe 31 is clamped with the second groove 321 on the connecting rod 32, the connection among the abutting pipe 121, the connecting pipe 31 and the connecting rod 32 is strengthened, and the part of the connecting rod 32, which exceeds the connecting pipe 31, is fixed by using a nut; the reinforcing plates 2 positioned at the two sides of the wall body 1 are arranged in a staggered manner, so that the connecting rods 32 on the reinforcing plates 2 at one side of the wall body 1 are connected and fixed with the connecting pipes 31 on the reinforcing plates 2 at the other side of the wall body 1; the reinforcing plates 2 positioned on the same side of the wall body 1 are arranged at intervals up and down, and the connecting blocks 22 connected with the elastic parts 21 are placed in the connecting grooves 23 of the reinforcing plates 2 to form clamping connection, so that the buffering effect on seismic waves is improved; then establish protective layer 4 cover on gusset plate 2 and use the bolt fastening, establish the top at wall body 1 with apron 5 lid at last, shelter from the gap between wall body 1, gusset plate 2 and the protective layer 4, prevent that the rainwater from flowing into inside wall body 1, gusset plate 2 and protective layer 4, strengthen the protection to wall body 1 and the normal use of gusset plate 2.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides a structure is built in antidetonation room, includes wall body (1), and wall body (1) includes steel reinforcement cage (11) and pours steel reinforcement cage's concrete, its characterized in that: the interior of the steel reinforcement cage (11) is fixedly connected with a communicating pipe (12), two sides of the wall body (1) are abutted and provided with reinforcing plates (2), the reinforcing plates (2) are fixedly connected with fixing pieces (3), and the fixing pieces (3) penetrate through the communicating pipe (12) from two sides of the wall body (1) to drive the reinforcing plates (2) to fix the wall body (1) and then are fixedly connected with each other; the reinforcing plates (2) on two sides are arranged in a staggered mode, the fixing piece (3) comprises connecting pipes (31) and connecting rods (32), the connecting pipes (31) and the connecting rods (32) are perpendicular to the reinforcing plates (2), the connecting pipes (31) are communicated with the reinforcing plates (2), and the connecting rods (32) which are respectively arranged on different reinforcing plates (2) are inserted into the connecting pipes (31) to form clamping connection; an abutting pipe (121) matched with the connecting pipe (31) is coaxially arranged in the communicating pipe (12), a plurality of springs (122) are arranged between the abutting pipe (121) and the communicating pipe (12), the plurality of springs (122) are uniformly arranged between the abutting pipe (121) and the communicating pipe (12) at intervals, and two ends of each spring (122) are fixedly connected with the abutting pipe (121) and the communicating pipe (12) respectively; the outer wall and the inner wall of the connecting pipe (31) are fixedly provided with clamping blocks (311), the abutting pipe (121) is provided with a first groove (1211) from inside to outside, the first groove (1211) is arranged between adjacent springs (122), the connecting rod (32) is internally provided with a second groove (321) from the circumferential surface, and the first groove (1211) and the second groove (321) are clamped with the clamping blocks (311) on the connecting pipe (31); the reinforcing plates (2) on the same side are arranged at intervals up and down, and an elastic part (21) is arranged between every two adjacent reinforcing plates (2); the both ends rigid coupling of elastic component (21) has connecting block (22), and spread groove (23) with connecting block (22) looks adaptation are seted up to the top, the bottom of gusset plate (2), and connecting block (22) are arranged in spread groove (23) and are formed the joint.

2. An earthquake-resistant building structure according to claim 1, wherein: one side of the reinforcing plate (2) departing from the wall body (1) is detachably connected with a protective layer (4).

3. An earthquake-resistant building structure according to claim 2, wherein: the top of the wall body (1) is provided with a cover plate (5), and the cover plate (5) is connected with the reinforcing plate (2) and the protective layer (4) through bolts.